油井水泥:核磁共振有助于建立H2O / Ca3SiO5混合物的相图压力/温度

Fabienne Méducin , Christine Noïk , Alain Rivereau , Gérard Hamel , Hélène Zanni
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引用次数: 2

摘要

水泥浆通常用来支撑油井的套管。这种泥浆被泵入油井的钢套管,然后放置在套管和周围岩石之间的环空空间中。随着井深的不断加深,水泥浆的固井条件至关重要。井底压力和温度极限条件可达到1 000 bar和250℃。为了模拟油井条件,在高温高压条件下对油井水泥的主要成分合成硅酸三钙Ca3SiO5进行了水化反应。研究的目的是根据压力、温度和Ca/Si比等参数,建立SiO2、CaO、H2O三元体系的相图。在本研究中,NMR主要用于鉴定和量化合成的硅酸盐水合物,有两种设定条件(120°C, 400 bar, 6天,200°C, 600 bar, 6天)。进行了机械试验,以评估在如此极端条件下合成的这些硅酸盐水合物的抗压强度,并验证它们仍然是有效的粘合剂。
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Oilwell cements: NMR contribution to establish the phase diagram pressure/temperature of the mixture H2O / Ca3SiO5

Cement slurry is always used to support the casing of oilwells. This slurry is pumped down the steel casing of the well and then placed in the annular space between the casing and the surrounding rock. Nowadays wells are becoming deeper and deeper so the setting conditions of the cement paste are crucial. The pressure and temperature limit conditions can reach 1 000 bar and 250 °C at the bottom of the well. Hydration of synthetic tricalcium silicate Ca3SiO5 – the main component of oil well cements – was performed at high temperature under high pressure to simulate the oilwell conditions. The objective of the study is the establishment of the phase diagram of the ternary system – SiO2, CaO, H2O – according to the parameters: pressure, temperature and Ca/Si ratio. In this study, NMR is largely used to identify and to quantify the synthesized silicate hydrates, with two setting conditions (6 days at 120 °C under 400 bar and 6 days at 200 °C under 600 bar). Mechanical tests were performed to evaluate the compression strength of those silicate hydrates synthesized under such drastic conditions and to verify that they were still efficient binders.

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